Feng Wang - "Electron hole fluid in van der Waals heterostructures"

Stanford University APPLIED PHYSICS/PHYSICS COLLOQUIUM Tuesday, April 2, 2024 Feng Wang Physics, UC Berkeley “Electron-hole fluid in van der Waals heterostructures” Atomically thin two-dimensional heterostructure provides an exciting platform to realize strongly interacting electron and hole fluid in the ground state. With the combination of both repulsive and attractive Coulomb interactions, the quantum electron-hole fluid can host a variety of novel correlated phenomena of multiparticle charge complexes. I will discuss the rich phase diagram of the electron-hole fluid, including bosonic exciton fluid, fermionic trion fluid, electron-hole plasma, and different mixture phases. I will also show that optical spectroscopy provides a powerful way to probe the phase diagram as well as transport of the electrons, holes, and excitons in the electron-hole fluid.

Join Today
Tova Holmes - "Muon Colliders the Next Generation of Particle Accelerators"
▶︎

Tova Holmes - "Muon Colliders the Next Generation of Particle Accelerators"

Mike Crommie - “Imaging frozen electrons in a 2D Wigner crystal”
▶︎

Mike Crommie - “Imaging frozen electrons in a 2D Wigner crystal”

Why can't you walk through walls? The Pauli Exclusion Principle Explained
▶︎

Why can't you walk through walls? The Pauli Exclusion Principle Explained

AI Is Creating A Rare Opportunity For Investors. How Jim Roppel Is Playing It. | Investing With IBD
▶︎

AI Is Creating A Rare Opportunity For Investors. How Jim Roppel Is Playing It. | Investing With IBD

Dirac's belt trick, Topology, and Spin ½ particles
▶︎

Dirac's belt trick, Topology, and Spin ½ particles

How AI Cracked the Protein Folding Code and Won a Nobel Prize
▶︎

How AI Cracked the Protein Folding Code and Won a Nobel Prize

Feng Wang - Electron solids in two-dimensional semiconductor heterostructures (April 23, 2024)
▶︎

Feng Wang - Electron solids in two-dimensional semiconductor heterostructures (April 23, 2024)

We finally understood orbital shapes intuitively! (My mind is blown)
▶︎

We finally understood orbital shapes intuitively! (My mind is blown)

Feng Wang - “Designing Artificial Quantum Materials with van der Waals Heterostructures"
▶︎

Feng Wang - “Designing Artificial Quantum Materials with van der Waals Heterostructures"

Ultrafast Spectroscopy of a Single Molecule
▶︎

Ultrafast Spectroscopy of a Single Molecule

"Excitons in Transition Metal Dichalcogenide van der Waals Heterostructures" (My Dissertation)
▶︎

"Excitons in Transition Metal Dichalcogenide van der Waals Heterostructures" (My Dissertation)

But what is quantum computing? (Grover's Algorithm)
▶︎

But what is quantum computing? (Grover's Algorithm)

The Hardest Questions in Physics | World Science Festival
▶︎

The Hardest Questions in Physics | World Science Festival

Yann LeCun's $1B Bet Against LLMs [Part 1]
▶︎

Yann LeCun's $1B Bet Against LLMs [Part 1]

Ke Wang - Kekulé Superconductivity in Twisted Magic-Angle Bilayer Graphene 05-20-2026
▶︎

Ke Wang - Kekulé Superconductivity in Twisted Magic-Angle Bilayer Graphene 05-20-2026

Optical spectroscopy of excitonic states & electronic phases 2D semiconductors & moiré superlattices
▶︎

Optical spectroscopy of excitonic states & electronic phases 2D semiconductors & moiré superlattices

Quantum Fields: The Real Building Blocks of the Universe - with David Tong
▶︎

Quantum Fields: The Real Building Blocks of the Universe - with David Tong

Something is jamming GPS over Europe. Here's what we found
▶︎

Something is jamming GPS over Europe. Here's what we found

DIY mass spectrometer measures potassium in dietary salt substitute
▶︎

DIY mass spectrometer measures potassium in dietary salt substitute

Stacking van der Waals Atomic Layers: Quest for New Quantum Materials - Philip Kim - 2/18/2021
▶︎

Stacking van der Waals Atomic Layers: Quest for New Quantum Materials - Philip Kim - 2/18/2021